CN215169853U - Core drilling device for engineering supervision - Google Patents

Abstract

The utility model relates to a core drilling device of engineering supervision, including drill bit and fuselage, cup joint on the lateral wall of drill bit and can follow the gliding bearing of vertical direction, the sucking disc has been cup jointed admittedly in the outside of bearing, sucking disc and bearing fixed connection, the outside of sucking disc is provided with the suction hood, the top of sucking disc is connected with electric telescopic handle, be provided with the dust absorption hose on the suction hood, can dismantle on the left side wall of fuselage and be connected with miniature dust catcher, be provided with the installation cavity in the fuselage, be provided with battery and driving motor in the installation cavity, axial connection has the gearbox on driving motor's the bottom output, be provided with variable speed controller and electrical source controller on the lateral wall of fuselage. The design of the sucker, the dust hood and the miniature dust collector can collect the dust generated in the coring process in a centralized way, and the dust is prevented from diffusing to the periphery; the design of the gear box and the variable speed controller can conveniently adjust the revolution number of the drill bit.

Description

Core drilling device for engineering supervision

Technical Field

The utility model relates to a bore core equipment technical field, more specifically say, relate to a bore core device that engineering was managed.

Background

Among the prior art, bore the core device and be used for boring the core experiment, for example building wall body, road base face and timber etc. need bore the core experiment, but present bore core device machine, can not normally work under the external condition that does not have lighting device, and when boring the core in-process and produce the dust material easily, can not in time clear up, cause the diffusion easily, produce the pollution to the environment, bore the core device revolution fixed moreover, can not mediate the revolution to different sample materials, the utility model discloses a new solution is proposed to above problem.

SUMMERY OF THE UTILITY MODEL

To the problem that exists among the prior art, the utility model aims to provide a bore core device of engineering supervision to solve the technical problem who mentions in the background art.

In order to solve the above problems, the utility model adopts the following technical proposal.

According to the drill core device for engineering supervision of the embodiment of the utility model, which comprises a drill bit and a machine body, wherein the drill bit is connected with the machine body in a transmission way, a drilling pipe is inserted into the bottom working end of the drill bit, the top end of the drilling pipe is bolted on the bottom of the drill bit, a bearing capable of sliding along the vertical direction is sleeved on the side wall of the drill bit, a sucker is fixedly sleeved outside the bearing, the sucker is fixedly connected with the bearing, a dust hood is arranged outside the sucker, the top end of the sucker is detachably connected with a plurality of groups of electric telescopic rods, the top end of the electric telescopic rods is fixed on the bottom of the machine body, an organ cover is sleeved outside the electric telescopic rods, the bottom end of the organ cover is detachably connected on the top end of the sucker, the top end of the organ cover is connected with the bottom of the machine body, a dust suction hose is arranged on the dust hood, a miniature dust collector is detachably connected on the left side wall of the machine body, and the working end of the miniature dust collector is connected with the dust hose, the dust outlet end of the miniature dust collector can be detachably connected with a dust storage box, a connecting hole is formed in the lower portion of the left side wall of the machine body, a gooseneck is connected to the inner thread of the connecting hole, the bottom end of the gooseneck is provided with a detection lamp, an installation cavity is formed in the machine body, a storage battery and a driving motor are arranged in the installation cavity, a gearbox is axially connected to the bottom output end of the driving motor, the bottom of the gearbox is connected with the top of a drill bit in a transmission mode, a variable speed controller and a power supply controller are arranged on the side wall of the machine body, the variable speed controller is electrically connected with the gearbox, the power supply controller is respectively connected with an electric telescopic rod, the miniature dust collector, the detection lamp, the storage battery is electrically connected with the driving motor, a first handle is arranged on the right side wall of the machine body, and a second handle is arranged at the top of the machine body.

In this embodiment, because of the sucking disc, the suction hood, miniature dust catcher, the gooseneck, visit the headlight, gearbox and variable speed controller's design, thus, the operator can hold the first in command and the second in command, open driving motor through electrical source controller, according to getting the material in core region, adjust the gearbox through variable speed controller, thereby make driving motor drive the drill bit through the gearbox and rotate, the drill bit drives and gets the pipe, then start miniature dust catcher through electrical source controller, and stretch out and draw back to suitable position through electrical source controller control electric telescopic handle, then will bore the bottom of getting the pipe and bore the sample region and get, when the operation ambient light is darker, visit the headlight is opened to the accessible, shine the sample region. The design of the sucker, the dust hood and the miniature dust collector can collect dust generated in the coring process in a centralized manner, so that the dust is prevented from diffusing to the periphery, and the environment is protected; the design of the gear box and the speed change controller can conveniently adjust the revolution of the drill bit and meet different coring requirements; the design of visiting the head lamp can conveniently shine coring area, conveniently uses under the darker condition of light.

In addition, according to the utility model discloses core drilling device of engineering supervision of above-mentioned embodiment can also have following additional technical characterstic:

according to an embodiment of the present invention, the outer wall of the drilled pipe is provided with dimension scale marks.

According to the utility model discloses an embodiment, electric telescopic handle with the bottom of organ cover is provided with flange, flange with the top bolted connection of sucking disc.

According to an embodiment of the present invention, the connecting flange and the sucking disc are provided with a rubber gasket therebetween.

According to the utility model discloses an embodiment, be provided with a plurality of louvres on the lateral wall of fuselage, the louvre with the installation cavity intercommunication.

According to the utility model discloses an embodiment, the position that corresponds the louvre in the installation cavity is provided with radiator fan.

According to an embodiment of the present invention, the first handle and the second handle are wrapped with a sponge cover respectively.

According to the utility model discloses an embodiment, be provided with the friction stripe on the sponge cover.

According to the utility model discloses an embodiment, be provided with on the fuselage and be provided with the access hole, the access hole with the installation cavity intercommunication, bolted connection has the access cover on the access hole.

According to the utility model discloses an embodiment, be provided with the attacker on the access cover.

Drawings

Fig. 1 is a schematic structural view of a preferred embodiment of a core drilling device for project supervision according to the present invention;

fig. 2 is a schematic sectional structure view of the fuselage.

The reference numbers in the figures illustrate:

1. a drill bit; 2. a body; 3. drilling a pipe; 4. a bearing; 5. a suction cup; 6. a dust hood; 7. an electric telescopic rod; 8. an organ cover; 9. a dust collection hose; 10. a miniature dust collector; 11. a dust storage box; 12. connecting holes; 13. a gooseneck; 14. a probe lamp; 15. a mounting cavity; 16. a storage battery; 17. a drive motor; 18. a gearbox; 19. a variable speed controller; 20. a power supply controller; 21. a first handle; 22. a second handle; 23. size scale lines; 24. a connecting flange; 25. a rubber gasket; 26. heat dissipation holes; 27. a heat radiation fan; 28. a sponge sleeve; 29. rubbing the stripes; 30. an access hole; 31. an access cover; 32. and (6) buckling a handle.

Detailed Description

The technical solution in the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiment of the present invention; obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention based on the embodiments of the present invention.

Referring to fig. 1 to 2, the core drilling device for engineering supervision according to the embodiment of the present invention comprises a drill bit 1 and a machine body 2, wherein the drill bit 1 is in transmission connection with the machine body 2, a drilling pipe 3 is inserted into a bottom working end of the drill bit 1, a top end of the drilling pipe 3 is bolted to a bottom of the drill bit 1, a bearing 4 capable of sliding along a vertical direction is sleeved on a side wall of the drill bit 1, a suction cup 5 is fixedly sleeved outside the bearing 4, the suction cup 5 is fixedly connected with the bearing 4, a dust hood 6 is arranged outside the suction cup 5, a plurality of groups of electric telescopic rods 7 are detachably connected to a top end of the suction cup 5, a top end of the electric telescopic rods 7 is fixed to a bottom of the machine body 2, an organ cover 8 is sleeved outside the electric telescopic rods 7, a bottom end of the organ cover 8 is detachably connected to a top end of the suction cup 5, a top end of the organ cover 8 is connected to a bottom end away from the machine body 2, a dust hose 9 is arranged on the dust hood 6, the left side wall of the machine body 2 is detachably connected with a miniature dust collector 10, the working end of the miniature dust collector 10 is connected with a dust collection hose 9, the dust outlet end of the miniature dust collector 10 is detachably connected with a dust collection box 11, the lower part of the left side wall of the machine body 2 is provided with a connecting hole 12, the connecting hole 12 is in threaded connection with a gooseneck 13, the bottom end of the gooseneck 13 is provided with a probing lamp 14, the machine body 2 is internally provided with a mounting cavity 15, the mounting cavity 15 is internally provided with a storage battery 16 and a driving motor 17, the output end of the bottom of the driving motor 17 is axially connected with a gearbox 18, the bottom of the gearbox 18 is in transmission connection with the top of the drill bit 1, the side wall of the machine body 2 is provided with a variable speed controller 19 and a power controller 20, the variable speed controller 19 is electrically connected with the gearbox 18, the power controller 20 is respectively electrically connected with the electric telescopic rod 7, the miniature dust collector 10, the probing lamp 14, the storage battery 16 and the driving motor 17, a first handle 21 is arranged on the right side wall of the machine body 2, and a second handle 22 is arranged on the top of the machine body 2.

In this embodiment, because of the sucking disc 5, the suction hood 6, miniature dust catcher 10, gooseneck 13, spy headlight 14, gearbox 18 and variable speed controller 19's design, thus, the operator can hold first in command 21 and second in command 22, open driving motor 17 through electrical controller 20, according to coring regional material, adjust gearbox 18 through variable speed controller 19, thereby make driving motor 17 drive drill bit 1 through gearbox 18 and rotate, drill bit 1 drives and drills pipe 3, then start miniature dust catcher 10 through electrical controller 20, and control electric telescopic handle 7 through electrical controller 20 and stretch out and draw back to suitable position, then bore the bottom of getting pipe 3 and bore the sample area and get, when the operation environment light is darker, the accessible is opened and is visited headlight 14, shine the sample area. The design of the sucker 5, the dust hood 6 and the miniature dust collector 10 can collect the dust generated in the coring process in a centralized manner, prevent the dust from diffusing to the periphery and protect the environment; the design of the gear box 18 and the variable speed controller 19 can conveniently adjust the revolution of the drill bit 1, and meet different coring requirements; the design of probe lamp 14 can conveniently shine coring area, conveniently uses under the darker condition of light.

Further, the outer wall of the drill pipe 3 is provided with dimension scale lines 23. The design of the size scale marks 23 can facilitate the checking of the coring drilling depth.

Further, the bottom of the electric telescopic rod 7 and the bottom of the organ cover 8 are provided with connecting flanges 24, and the connecting flanges 24 are connected with the top end of the sucker 5 through bolts. Through the design, the organ cover 8 and the electric telescopic rod 7 can be conveniently detached.

Further, a rubber gasket 25 is arranged between the connecting flange 24 and the suction cup 5. Through the design, dust can be prevented from entering the organ cover 8 from the gap between the suction cup 5 and the connecting flange 24.

Further, a plurality of heat dissipation holes 26 are formed in the side wall of the body 2, and the heat dissipation holes 26 are communicated with the installation cavity 15. The heat dissipation holes 26 are designed to dissipate the heat in the body 2 to the surrounding environment in time.

Further, a heat dissipation fan 27 is disposed in the mounting cavity 15 at a position corresponding to the heat dissipation hole 26. The design of the heat dissipation fan 27 can improve the heat dissipation effect of the heat dissipation hole 26.

Further, the outer sides of the first handle 21 and the second handle 22 are respectively wrapped with a sponge sleeve 28. The sponge cover 28 is designed to reduce wear on the first handle 21 and the second handle 22.

Further, the sponge cover 28 is provided with friction stripes 29. The friction strips 29 are designed to increase the friction between the operator and the sponge cover 28.

Further, be provided with access hole 30 on the fuselage 2, access hole 30 with installation cavity 15 intercommunication, bolted connection has access cover 31 on the access hole 30. The design of the access opening 30 can facilitate the maintenance of the equipment in the installation cavity 15.

Further, a handle 32 is provided on the access cover 31. The design of the locking handle 32 allows the access cover 31 to be easily removed by the locking handle 32.

The working process of the utility model is as follows:

the operator can hold first handle 21 and second handle 22, open driving motor 17 through electrical source controller 20, according to coring regional material, through speed change controller 19 adjustment gearbox 18, thereby make driving motor 17 drive drill bit 1 through gearbox 18 and rotate, drill bit 1 drives and bores pipe 3, then start miniature dust catcher 10 through electrical source controller 20, and stretch out and draw back to suitable position through electrical source controller 20 control electric telescopic handle 7, then bore the bottom of taking pipe 3 and bore the sample region, when the environment light of doing business is darker, probe lamp 14 is opened to the accessible, shine the sample region. The design of the sucker 5, the dust hood 6 and the miniature dust collector 10 can collect the dust generated in the coring process in a centralized manner, prevent the dust from diffusing to the periphery and protect the environment; the design of the gear box 18 and the variable speed controller 19 can conveniently adjust the revolution of the drill bit 1, and meet different coring requirements; the design of probe lamp 14 can conveniently shine coring area, conveniently uses under the darker condition of light.

The above description is only the preferred embodiment of the present invention; the scope of the present invention is not limited thereto. Any person skilled in the art should also be able to cover the technical scope of the present invention by replacing or changing the technical solution and the improvement concept of the present invention with equivalents and modifications within the technical scope of the present invention.

Claims (10)

1. The utility model provides a bore core device of engineering supervision, includes drill bit and fuselage, the drill bit with the fuselage transmission is connected its characterized in that: the working end of the bottom of the drill bit is inserted with a drilling pipe, the top end of the drilling pipe is bolted at the bottom of the drill bit, a bearing capable of sliding along the vertical direction is sleeved on the side wall of the drill bit, a sucker is fixedly sleeved outside the bearing and fixedly connected with the bearing, a dust hood is arranged outside the sucker, a plurality of groups of electric telescopic rods are detachably connected at the top end of the sucker, the top end of the electric telescopic rods is fixed at the bottom of the machine body, an organ cover is sleeved outside the electric telescopic rods, the bottom end of the organ cover is detachably connected at the top end of the sucker, the top end of the organ cover is connected at the bottom of the machine body, a dust suction hose is arranged on the dust hood, a miniature dust collector is detachably connected on the left side wall of the machine body, the working end of the miniature dust collector is connected with the dust suction hose, a dust collecting box is detachably connected at the dust outlet end of the miniature dust collector, and a connecting hole is formed in the lower part of the left side wall of the machine body, there is the gooseneck in the connecting hole female connection, the bottom of gooseneck is provided with the probe lamp, be provided with the installation cavity in the fuselage, be provided with battery and driving motor in the installation cavity, the axial is connected with the gearbox on driving motor's the bottom output, the bottom of gearbox is connected with the top transmission of drill bit, be provided with variable speed controller and electrical source controller on the lateral wall of fuselage, variable speed controller and gearbox electric connection, electrical source controller respectively with electric telescopic handle, miniature dust catcher, the probe lamp, battery and driving motor electric connection, be provided with the first in command on the right side wall of fuselage, the top of fuselage is provided with the second in command.

2. An engineering proctoring core drilling apparatus as defined in claim 1, wherein: the outer wall of the drilling pipe is provided with dimension scale marks.

3. An engineering proctoring core drilling apparatus as defined in claim 1, wherein: and the bottoms of the electric telescopic rod and the organ cover are provided with connecting flanges, and the connecting flanges are connected with the top end of the sucking disc through bolts.

4. An engineering proctoring core drilling apparatus as defined in claim 3, wherein: and a rubber sealing gasket is arranged between the connecting flange and the sucking disc.

5. An engineering proctoring core drilling apparatus as defined in claim 1, wherein: a plurality of heat dissipation holes are formed in the side wall of the machine body and communicated with the installation cavity.

6. An engineering proctoring core drilling apparatus as defined in claim 5, wherein: and a heat radiation fan is arranged in the mounting cavity corresponding to the heat radiation hole.

7. An engineering proctoring core drilling apparatus as defined in claim 1, wherein: the outer sides of the first handle and the second handle are respectively wrapped with sponge sleeves.

8. An engineering proctoring core drilling apparatus as defined in claim 7, wherein: the sponge sleeve is provided with friction stripes.

9. An engineering proctoring core drilling apparatus as defined in claim 1, wherein: be provided with the access hole on the fuselage, the access hole with the installation cavity intercommunication, bolted connection has the access cover on the access hole.

10. An engineering proctoring core drilling apparatus as defined in claim 9, wherein: the maintenance cover is provided with a buckle.

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